Extracts of Trichocline sinuata (Asteraceae) as natural sensitizers in the photodynamic inactivation of Candida albicans.

Despite significant progress in the development of phototherapy drugs, it is widely recognized that natural products remain the primary source of new photoactive compounds. Exploring uncharted flora in the east-central region of Argentina may offer a vast array of opportunities to isolate new photoactive molecules or plant extracts with high potential for use in antimicrobial photodynamic therapy (aPDT) against Candida albicans. To assess the photofungicidal potential of T. sinuata ("contrayerba") against C. albicans, the extracts underwent spectroscopic and chromatographic analysis, resulting in the identification of furanocoumarin metabolites with similar spectrophotometric properties in all extracts. The extract profiles were created using UHPLC-DAD, and seven furanocoumarins (FCs) were detected. The highest photoinactivation against C. albicans was observed for dicholormethanic extracts (MFC = 62.5 µg/mL), equal to xanthotoxin employed as a positive control. Furthermore, we determine that photochemical mechanisms dependent on oxygen (type I and type II processes) and mechanisms independent of oxygen (photoadduct formation) are involved in the death of these yeasts. These results support the use of native plants of the east-central region of Argentina as potent sensitizers for aPDT and suggest that they can replace xanthotoxin in treating superficial yeast infections of the skin.

Photoinactivation of non-tuberculous mycobacteria using Zn-phthalocyanine loaded into liposomes.

Non-tuberculous mycobacteria are a heterogeneous group of environmental bacteria and other than the well-known Mycobacterium tuberculosis complex and Mycobacterium leprae. They could cause localized or disseminated infections. Mycobacterium chelonae and Mycobacterium fortuitum are among the most clinically relevant non-tuberculous mycobacteria species. The infections treatment is complex since they are resistant to antituberculosis drugs and the biofilm formation makes them impermeable to several antibiotics. Antimicrobial photodynamic therapy (aPDT) constitutes an alternative to eliminate pathogens, principally those antimicrobials resistant. Among explored photosensitizers, phthalocyanines are considered excellent, but with a disadvantage: a lack solubility in aqueous media. Consequently, several nanocarriers have been studied in the last years. In this work, a Zn-phthalocyanine into liposomes was evaluated to photoinactivate M. fortuitum and M. chelonae. The results show a higher photodynamic activity of ZnPc into liposomes respect to solution. Furthermore, M. fortuitum was more sensible to aPDT than M. chelonae.

Current Phthalocyanines Delivery Systems in Photodynamic Therapy: An Updated Review.

Photodynamic therapy has emerged as an effective therapeutic alternative to treat oncological, cardiovascular, dermatological, infectious, and ophthalmic diseases. Photodynamic therapy combines the action of a photosensitizer with light in the presence of oxygen to generate reactive oxygen species, capable of reacting with cellular components, resulting in injury and, consequently, inducing cellular death. Phthalocyanines are considered good photosensitizers, although most of them are lipophilic, difficulting their administration for clinical use. A strategy to overcome the lack of solubility of phthalocyanines in aqueous media is to incorporate them into different delivery systems. The present review aimed to summarize the current status of the main drug delivery systems used for Zn and Al phthalocyanines and their effect in photodynamic therapy, reported in the last five years. Liposomes, polymeric micelles, polymeric nanoparticles, and goldnanoparticles constituted some of the most used carriers and were discussed in this review. The latest studies reported strongly suggest that the application of nanotechnologies as delivery systems allows an increase in photodynamic therapy efficacy and reduces side-effects associated with the phthalocyanine administration, which represents a hope for cancer treatments.

Reproduction in the Eared Dove: An exception to the classic model of seasonal reproduction in birds?

In avian species living at high altitudes and latitudes, reproductive events are largely controlled by photoperiod, with changes being perceived mainly through encephalic photoreceptors located in the hypothalamus. It is known that during long day periods (reproductive periods), the information transmitted by brain photoreceptors triggers the production of thyroid hormones that regulate GnRH secretion, inducing secretion of pituitary gonadotropins. As a result, gonads develop and grow and the production of gonadal sex hormones, testosterone and estradiol increases (classic gonadal cycle). During short day periods (non-reproductive periods) on the other hand, the gonads regress, and plasma gonadal steroid levels are low. By means of this mechanism, birds synchronize their physiology and reproductive behaviors with seasonal changes in the environment. However, it appears that not all avian species comply with this general reproductive pattern. For example, the Eared Dove (Zenaida auriculata), a South American opportunistic breeding columbiform, has been reported to successfully reproduce throughout the year, making it an interesting avian system for studying the endocrine basis of avian reproduction. In view of a clear lack of seasonal variability in testicular weight and size (the classic gonadal regression/recrudescence cycle) in the male Eared Dove, we examined whether their reproductive aseasonality could be the result of being in a continuous state of reproductive preparedness. Our results show that despite the absence of a marked gonadal cycle in terms of gonadal volume, plasma testosterone levels in males were minimal during autumn-winter, reaching maximum values during spring-summer. This indicates that male gonad function is not seasonal in terms of spermatogenesis but that circulating testosterone levels are correlated with photoperiod, demonstrating an exception to the classic model of reproduction in birds.

Zn phthalocyanines loaded into liposomes: Characterization and enhanced performance of photodynamic activity on glioblastoma cells.

Photodynamic therapy (PDT) is considered a promising strategy for cancer treatment. PDT utilizes light in combination with a photosensitizer (PS) to induce several phototoxic reactions. Phthalocyanines (Pcs), a second generation of photosensitizers, have been studied in several cancer models. Among these, Pcs, have become of interest for the treatment of glioblastomas which are one of the most common and aggressive forms of tumors of the central nervous system. Due to the lipophilic nature of Pcs and their limited solubility in water, Pcs can be loaded in liposomes. In this work, we characterized liposomes of ZnPc and TAZnPc and their effectiveness to photoinactivate glioblastoma cells, was evaluated. Both Pcs show an increase in their photosensitizing activity when they were administrated in Dipalmitoylphosphatidylcholine-cholesterol liposomes compared to Pcs administrated in dimethylformamide.

Biomarcadores en la medición del estrés: una revisión sistemática / Biomarkers in stress measurement: A systematic review

INTRODUCCIÓN Y OBJETIVOS: Existe un amplio consenso en la comunidad científica en relación con la posibilidad de evaluar el estrés a través de marcadores biológicos asociados a los principales sistemas regulatorios de este proceso: el simpático adrenomedular (SAM), el hipotalámico-hipófiso-adrenal (HHA) y el sistema inmunológico. Sin embargo, persisten interrogantes en relación con el uso de biomarcadores: a)¿Cuáles son los biomarcadores de estrés más utilizados? b)¿Qué técnicas son recomendables para la determinación de los mismos? c)¿A partir de qué muestras biológicas es aconsejable cuantificarlos? El presente artículo tiene como objetivo efectuar una revisión sistemática de la literatura especializada con el fin de analizar dichos interrogantes. MATERIALES Y MÉTODOS: Se efectuó una revisión sistemática en diferentes bases de datos (Pubmed, PMC y MEDLINE), considerando artículos de los últimos 10años. Se identificaron 710 estudios que fueron sometidos al proceso de selección, 33 de los cuales se incluyeron finalmente en la revisión. RESULTADOS Y CONCLUSIONES: Se han publicado numerosas revisiones que buscan establecer un vínculo entre biomarcadores y diferentes problemas asociados al estrés. Si bien los resultados son prometedores, el campo se enfrenta con importantes desafíos, como, por ejemplo, encontrar consenso en la definición de las mejores prácticas para el uso de biomarcadores. A partir de la presente revisión podemos concluir que los biomarcadores predominantemente utilizados para determinar la activación del eje SAM son el ritmo cardíaco y la presión sanguínea; en cuanto al eje HHA, el cortisol ha sido el marcador biológico más comúnmente medido tanto en sangre como en saliva y en cabello. Finalmente, en lo referente a marcadores representativos de la activación del sistema inmune debido a estrés, la IL-6 y la PCR fueron las más frecuentemente analizadas

INTRODUCTION AND OBJECTIVES: There is a broad consensus in the scientific community regarding the possibility of evaluating stress through biological markers associated with the main regulatory systems of this process -the Sympathetic Medullary Adreno (SAM), the Hypothalamic Hypophysial Adrenal (HHA) and the immune systems. However, questions remain regarding the use of biomarkers: a) Which are the most commonly used stress biomarkers? b) Which techniques are recommended for their determination? c) From which biological samples is it advisable to quantify them? The aim of this article is to carry out a systematic review of the specialised literature in order to analyse these questions. MATERIALS AND METHODS: a systematic review was carried out in different databases (Pubmed, PMC and MEDLINE), considering articles from the last ten years. We identified 710 studies that underwent the selection process, 33 of which were finally included in the review. RESULTS AND CONCLUSIONS: To date, numerous reviews have been published with the aim of establishing a link between biomarkers and different problems associated with stress. Although the results are promising, the field faces important challenges such as, for example, finding consensus on the definition of best practices for the use of biomarkers. From the present review we can conclude that the biomarkers predominantly used to determine the activation of the SAM axis are heart rate and blood pressure; as for the HHA axis, cortisol has been the biological marker most commonly measured in blood, saliva or hair. Finally, regarding representative markers of immune system activation due to stress, IL-6 and PCR were the most frequently analysed

Effectiveness of ZnPc and of an amine derivative to inactivate Glioblastoma cells by Photodynamic Therapy: an in vitro comparative study.

Glioblastoma multiforme is considered to be one of the most aggressive types of tumors of the central nervous system, with a poor prognosis and short survival periods of ~ one year. The current protocol for glioblastoma treatment includes the surgical excision of the primary tumor followed by radio and chemotherapy. Photodynamic therapy (PDT) is considered a promising strategy for the treatment of several types of tumors. Phthalocyanines (Pcs) are good photosensitizers (PSs) for PDT because they induce cell death in several cellular models. ZnPc (Zn(II)phthalocyanine) is a well-known Pc, extensively tested in different cells and tumor models, but its evaluation on a glioblastoma model has been poorly studied. Herein, we compare the capacity of ZnPc and one of its derivatives, Zn(II)tetraminephthalocyanine (TAZnPc), to photoinactivate glioblastoma cells (T98G, MO59, LN229 and U87-MG) in culture. We measured the cellular uptake, the toxicity in the dark and the subcellular localization of the different Pcs, as well as the clonogenic capacity of surviving cells after PDT. The mechanism of cell death induced after PDT was determined by measuring caspase 3 activation, DNA fragmentation, phosphatidylserine externalization, mitochondrial morphological changes and loss of mitochondrial membrane potential as well as lysosomal membrane integrity. Overall, ZnPc and TAZnPc present good properties to be used as PSs with photoinactivation capacity on glioblastoma cells.

Photodynamic inactivation of multiresistant bacteria (KPC) using zinc(II)phthalocyanines.

The worldwide increase in antibiotic resistance has led to search of alternatives anti-microbial therapies such as photodynamic inactivation. The aim of this paper was to evaluate the photodynamic activity in vitro of a neutral and two cationic Zn phthalocyanines. Their photokilling activity was tested on Escherichia coli ATCC 25922 and Klebsiella pneumoniae Carbapenemase (KPC)-producing. After treating bacteria with phthalocyanines, the cultures were irradiated with white light. As a result, the bacteria were inactivated in presence of cationic phthalocyanines. The photoinactivation was dependent of the irradiation time and phthalocyanine concentration. The most effective photosensitizer on KPC-producing was Zinc(II)tetramethyltetrapyridino[2,3-b:2',3'-g:2″,3″-l:2‴,3‴-q]porphyrazinium methylsulfate (ZnTM2,3PyPz). After irradiation using the water soluble ZnTM2,3PyPz (3µM) the viability of KPC (30min of irradiation) and E. coli (10min of irradiation) decreased ≈99.995%.

The Visual Cycle in the Inner Retina of Chicken and the Involvement of Retinal G-Protein-Coupled Receptor (RGR).

The vertebrate retina contains typical photoreceptor (PR) cones and rods responsible for day/night vision, respectively, and intrinsically photosensitive retinal ganglion cells (ipRGCs) involved in the regulation of non-image-forming tasks. Rhodopsin/cone opsin photopigments in visual PRs or melanopsin (Opn4) in ipRGCs utilizes retinaldehyde as a chromophore. The retinoid regeneration process denominated as "visual cycle" involves the retinal pigment epithelium (RPE) or Müller glial cells. Opn4, on the contrary, has been characterized as a bi/tristable photopigment, in which a photon of one wavelength isomerizes 11-cis to all-trans retinal (Ral), with a second photon re-isomerizing it back. However, it is unknown how the chromophore is further metabolized in the inner retina. Nor is it yet clear whether an alternative secondary cycle occurs involving players such as the retinal G-protein-coupled receptor (RGR), a putative photoisomerase of unidentified inner retinal activity. Here, we investigated the role of RGR in retinoid photoisomerization in Opn4x (Xenopus ortholog) (+) RGC primary cultures free of RPE and other cells from chicken embryonic retinas. Opn4x (+) RGCs display significant photic responses by calcium fluorescent imaging and photoisomerize exogenous all-trans to 11-cis Ral and other retinoids. RGR was found to be expressed in developing retina and in primary cultures; when its expression was knocked down, the levels of 11-cis, all-trans Ral, and all-trans retinol in cultures exposed to light were significantly higher and those in all-trans retinyl esters lower than in dark controls. The results support a novel role for RGR in ipRGCs to modulate retinaldehyde levels in light, keeping the balance of inner retinal retinoid pools.

Synthesis and photodynamic properties of adamantylethoxy Zn(II) phthalocyanine derivatives in different media and in human red blood cells.

Novel unsymmetrically substituted Zn(II) phthalocyanine bearing an adamantylethoxy group (AZnPc) was synthesized by the ring expansion reaction of boron(III) subphthalocyanine chloride with an appropriated phthalonitrile derivative (APc). Also, APc was used to obtain a new Zn(II) phthalocyanine bearing four adamantylethoxy groups (A(4)ZnPc) by cyclotetramerization reaction. The spectroscopic and photodynamic properties of these photosensitizers were compared with those of a Zn(II) phthalocyanine substituted by four methoxy groups (M(4)ZnPc) in different media. Similar results were obtained in N,N-dimethylformamide. However, a higher photodynamic activity was found for AZnPc in a biomimetic system formed by reverse micelles. This behavior was also observed in the presence of human red blood (HRB) cells, which were used as an in vitro cellular model. Thus, AZnPc was the most effective photosensitizer to produce HRB cells hemolysis. The photodynamic effect produced a decrease in the HRB cells osmotic stability leading to the release of hemoglobin. Studies of photodynamic action mechanism showed that photohemolysis of HRB cells was protected in the presence of azide ion, while the addition of mannitol produced a negligible effect on the cellular photodamage, indicating the intermediacy of O(2)((1)Δ(g)). Therefore, the presence of an adamantyl unit in the phthalocyanine macrocycle represents an interesting molecular architecture for potential phototherapeutic agents.

Photosensitization ability of a water soluble zinc(II)tetramethyltetrapyridinoporphyrazinium salt in aqueous solution and biomimetic reverse micelles medium.

The spectroscopic properties and the photodynamic activity of a highly water soluble zinc(II)tetramethyltetrapyridino[2,3-b:2',3'-g:2",3"-l:2"',3'''-q]porphyrazinium salt (ZnTM2,3PyPz) were investigated in aqueous homogeneous solution and in biomimetic reverse micelles medium bearing photooxidizable biological substrates. Absorption and fluorescence spectroscopic studies indicate that ZnTM2,3PyPz is dissolved as monomer in water and in n-heptane/sodium bis(2-ethylhexyl)sulfosuccinate (AOT, 0.1 M)/water (W0 = 30) micellar system. Fluorescence quantum yields (phi F) of 0.29 and 0.27 were calculated for ZnTM2,3PyPz in water and in AOT micelles, respectively. Spectroscopic analysis at different AOT concentrations showed interaction between ZnTM2,3PyPz and AOT reverse micelles with a binding constant (Kb) of 1.7 x 10(3) M(-1). The photosensitization ability of ZnTM2,3PyPz was evaluated using 9,10-dimethylanthracene (DMA). Singlet molecular oxygen, O2(1 delta g), production yielded values of phi(delta) = 0.65 for ZnTM2,3PyPz in AOT micelles. Also, ZnTM2,3PyPz induced efficiently the decomposition of the amino acid L-tryptophan (Trp) and the nucleotide guanosine 5'-monophosphate (GMP) in both media. A value of approximately 3.6 x 10(7) s(-1) M(-1) was found for the second order rate constant of Trp (k(r)(Trp)) decomposition in the AOT system, which is near to that found in pure water. Moreover, ZnTM2,3PyPz formed stable complexes with GMP with a binding constant of K(GMP) = 1.0 x 10(3) M(-1). 1H NMR studies indicated that ZnTM2,3PyPz interacts mainly with the guanine moiety more than the sugar part of GMP. On the other hand, the photodynamic activity of ZnTM2,3PyPz produced decomposition of GMP. Quantification of GMP by HPLC indicates that the nucleotide is photooxidized with a k(obs)(GMP) = 2.6 x 10(-4) s(-1) in water. Photooxidation of GMP considerably increases in deuteriated water indicating that ZnTM2,3PyPz appears to perform its photosensitizing action via the intermediacy of O2(1delta g). Also, efficient sensitized decomposition was observed in micellar media resembling that in pure water. These results provide a better understanding of the effective photodynamic action produced by ZnTM2,3PyPz like a potential phototherapeutic agent for the treatment of neoplastic diseases by photodynamic therapy.

A different route to the synthesis of 9,10-disubstituted phenanthrenes.

We here report the synthesis of 10-aryl-9-hydroxy- and 10-aryl-9-aminophenanthrenes by reaction of the anions of 9-phenanthrol and 9-aminophenanthrene, respectively, with aryl halides (iodobenzene, 4-iodoanisole, 9-bromophenantrene). Good yields of 9,10-disubstituted phenanthrenes were obtained in these reactions (>75% and approximately 50% for the 9-amino and 9-hydroxyphenanthrene rings, respectively). Extension of the procedure to the reaction of both anions with o-dihalobenzenes leads to the synthesis of the ring closure products (aza- or oxa-indeno[1,2-l]phenanthrene), which bear a pentacyclic aromatic condensed ring system, although in lower overall yields (approximately 35%).